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danieleb@156
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1 clear
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danieleb@156
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2
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danieleb@156
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3 %% Parameteres
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danieleb@156
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4
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danieleb@156
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5 % Dictionary learning parameters
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danieleb@156
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6 toolbox = 'TwoStepDL'; %dictionary learning toolbox
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7 dicUpdate = {'ksvd','mailhe'}; %dictionary updates
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8 iterNum = 20; %number of iterations
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9
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danieleb@156
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10 % Test signal parameters
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danieleb@156
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11 signal = audio('music03_16kHz.wav'); %audio signal
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12 blockSize = 256; %size of audio frames
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13 dictSize = 512; %number of atoms in the dictionary
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14 overlap = 0.5; %overlap between consecutive frames
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15 sigma = 1e6; %snr of noise (set to be negligible so that the problem becomes approximation rather than denoising)
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danieleb@156
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16 percActiveAtoms = 5; %percentage of active atoms
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danieleb@156
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17
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danieleb@156
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18 % Dependent parameters
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danieleb@156
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19 nActiveAtoms = fix(blockSize/100*percActiveAtoms); %number of active atoms
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20 epsilon = 1/sigma; %error constraint for sparse representation step (corresponds to noise applied to signals)
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daniele@169
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21 minMu = sqrt((dictSize-blockSize)/(blockSize*(dictSize-1))); %target coherence (based on coherence lower bound)
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daniele@169
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22 minCoherence = [0.1:0.1:1];
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23
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danieleb@156
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24 % Initial dictionaries
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danieleb@156
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25 dctDict = dictionary('dct',blockSize,dictSize);
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danieleb@156
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26 dctDict = dctDict.phi;
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danieleb@156
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27 gaborParam = struct('N',blockSize,'redundancyFactor',2,'wd',@rectwin);
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danieleb@156
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28 gaborDict = Gabor_Dictionary(gaborParam);
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29
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danieleb@156
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30 %% Generate audio denoising problem with low noise (audio representation)
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danieleb@156
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31 SMALL.Problem = generateAudioDenoiseProblem(signal.s,[],blockSize,...
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daniele@169
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32 dictSize,overlap,sigma); % generate representation problem
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danieleb@156
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33 SMALL.Problem.b1 = SMALL.Problem.b; % copy signals from training set b to test set b1 (needed for later functions)
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34
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danieleb@156
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35 % omp2 sparse representation solver
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danieleb@156
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36 ompParam = struct('X',SMALL.Problem.b,'epsilon',epsilon,'maxatoms',nActiveAtoms); %parameters
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37 solver = SMALL_init_solver('ompbox','omp2',ompParam,false); %solver structure
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38
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39
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daniele@169
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40 %% Test
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danieleb@156
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41 name = dicUpdate{1}; %use ksvd update
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daniele@169
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42 SMALL.DL(1:36) = SMALL_init_DL(toolbox,name); %create dictionary learning structures
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43
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danieleb@156
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44 % learn with random initialisation and no decorrelation
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danieleb@156
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45 SMALL.DL(1).param = struct('data',SMALL.Problem.b,'Tdata',nActiveAtoms,...
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daniele@169
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46 'dictsize',dictSize,'iternum',iterNum,'memusage','high','solver',solver,...
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daniele@169
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47 'decFcn','none'); %parameters for the dictionary learning
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danieleb@156
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48 SMALL.DL(1) = SMALL_learn(SMALL.Problem,SMALL.DL(1)); %learn dictionary
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daniele@169
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49 %save('SMALL','SMALL');
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50
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danieleb@156
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51 % learn with random initialisation and mailhe decorrelation
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daniele@169
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52 for iMu=1:10
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daniele@169
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53 SMALL.DL(1+iMu).param = struct('data',SMALL.Problem.b,'Tdata',nActiveAtoms,...
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daniele@169
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54 'dictsize',dictSize,'iternum',iterNum,'memusage','high','solver',solver,...
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daniele@169
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55 'decFcn','mailhe','coherence',minCoherence(iMu)); %parameters for the dictionary learning
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daniele@169
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56 SMALL.DL(1+iMu) = SMALL_learn(SMALL.Problem,SMALL.DL(1+iMu)); %learn dictionary
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daniele@169
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57 %save('SMALL','SMALL');
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daniele@169
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58 end
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59
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danieleb@156
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60 % learn with random initialisation and tropp decorrelation
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danieleb@156
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61 SMALL.DL(12).param = struct('data',SMALL.Problem.b,'Tdata',nActiveAtoms,...
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daniele@169
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62 'dictsize',dictSize,'iternum',iterNum,'memusage','high','solver',solver,...
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daniele@169
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63 'decFcn','tropp','coherence',minCoherence); %parameters for the dictionary learning
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danieleb@156
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64 SMALL.DL(12) = SMALL_learn(SMALL.Problem,SMALL.DL(12)); %learn dictionary
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65
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danieleb@156
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66 % Learn with dct initialisation and no decorrelation
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danieleb@156
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67 SMALL.DL(13).param = struct('data',SMALL.Problem.b,'Tdata',nActiveAtoms,...
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daniele@169
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68 'dictsize',dictSize,'iternum',iterNum,'memusage','high','solver',solver,...
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daniele@169
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69 'decFcn','none','initdict',dctDict); %parameters for the dictionary learning
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danieleb@156
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70 SMALL.DL(13) = SMALL_learn(SMALL.Problem,SMALL.DL(13)); %learn dictionary
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71
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danieleb@156
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72 % learn with dct initialisation and mailhe decorrelation
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daniele@169
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73 for iMu=1:10
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daniele@169
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74 SMALL.DL(13+iMu).param = struct('data',SMALL.Problem.b,'Tdata',nActiveAtoms,...
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daniele@169
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75 'dictsize',dictSize,'iternum',iterNum,'memusage','high','solver',solver,...
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daniele@169
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76 'decFcn','mailhe','coherence',minCoherence(iMu),'initdict',dctDict); %parameters for the dictionary learning
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daniele@169
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77 SMALL.DL(13+iMu) = SMALL_learn(SMALL.Problem,SMALL.DL(13+iMu)); %learn dictionary
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daniele@169
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78 %save('SMALL','SMALL');
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daniele@169
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79 end
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danieleb@156
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80
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danieleb@156
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81 % learn with dct initialisation and tropp decorrelation
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daniele@169
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82 SMALL.DL(24).param = struct('data',SMALL.Problem.b,'Tdata',nActiveAtoms,...
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daniele@169
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83 'dictsize',dictSize,'iternum',iterNum,'memusage','high','solver',solver,...
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daniele@169
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84 'decFcn','tropp','coherence',minCoherence,'initdict',dctDict); %parameters for the dictionary learning
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daniele@169
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85 SMALL.DL(24) = SMALL_learn(SMALL.Problem,SMALL.DL(24)); %learn dictionary
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daniele@169
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86
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danieleb@156
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87
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danieleb@156
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88 % Learn with gabor initialisation and no decorrelation
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daniele@169
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89 SMALL.DL(25).param = struct('data',SMALL.Problem.b,'Tdata',nActiveAtoms,...
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daniele@169
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90 'dictsize',dictSize,'iternum',iterNum,'memusage','high','solver',solver,...
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daniele@169
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91 'decFcn','none','initdict',gaborDict); %parameters for the dictionary learning
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daniele@169
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92 SMALL.DL(25) = SMALL_learn(SMALL.Problem,SMALL.DL(25)); %learn dictionary
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danieleb@156
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93
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danieleb@156
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94 % learn with gabor initialisation and mailhe decorrelation
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daniele@169
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95 for iMu=1:10
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daniele@169
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96 SMALL.DL(25+iMu).param = struct('data',SMALL.Problem.b,'Tdata',nActiveAtoms,...
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daniele@169
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97 'dictsize',dictSize,'iternum',iterNum,'memusage','high','solver',solver,...
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daniele@169
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98 'decFcn','mailhe','coherence',minCoherence(iMu),'initdict',gaborDict); %parameters for the dictionary learning
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daniele@169
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99 SMALL.DL(25+iMu) = SMALL_learn(SMALL.Problem,SMALL.DL(25+iMu)); %learn dictionary
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daniele@169
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100 %save('SMALL','SMALL');
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daniele@169
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101 end
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danieleb@156
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102
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danieleb@156
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103 % learn with gabor initialisation and tropp decorrelation
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daniele@169
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104 SMALL.DL(36).param = struct('data',SMALL.Problem.b,'Tdata',nActiveAtoms,...
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daniele@169
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105 'dictsize',dictSize,'iternum',iterNum,'memusage','high','solver',solver,...
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daniele@169
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106 'decFcn','tropp','coherence',minCoherence,'initdict',gaborDict); %parameters for the dictionary learning
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daniele@169
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107 SMALL.DL(36) = SMALL_learn(SMALL.Problem,SMALL.DL(36)); %learn dictionary
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danieleb@156
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108
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danieleb@156
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109 %% Evaluate coherence and snr of representation for the various methods
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daniele@169
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110 sigNoiseRatio = zeros(36,1);
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daniele@169
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111 mu = zeros(36,1);
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daniele@169
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112 for i=1:36
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daniele@169
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113 SMALL.Problem.A = SMALL.DL(i).D;
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daniele@169
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114 tempSolver = SMALL_solve(SMALL.Problem,solver);
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daniele@169
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115 sigNoiseRatio(i) = snr(SMALL.Problem.b,SMALL.DL(i).D*tempSolver.solution);
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daniele@169
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116 dic(i) = dictionary(SMALL.DL(i).D);
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117 mu(i) = dic(i).coherence;
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118 end
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119
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danieleb@156
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120 %% Plot results
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121 minMu = sqrt((dictSize-blockSize)/(blockSize*(dictSize-1)));
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122
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daniele@169
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123 figure,
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daniele@169
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124 %subplot(3,1,1)
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daniele@169
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125 hold on, grid on
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daniele@169
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126 title('Data Initialisation')
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daniele@169
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127 plot([1 1],[0 25],'k-');
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daniele@169
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128 plot(mu(1),sigNoiseRatio(1),'ks');
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daniele@169
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129 plot(mu(12),sigNoiseRatio(12),'kd');
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daniele@169
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130 plot(mu(2:11),sigNoiseRatio(2:11),'k*-');
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daniele@169
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131 plot([minMu minMu],[0 25],'k--')
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daniele@169
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132 set(gca,'YLim',[0 25],'XLim',[0 1.4]);
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daniele@169
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133 legend({'\mu_{max}','K-SVD','Grassmannian','INK-SVD','\mu_{min}'});
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daniele@169
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134 xlabel('\mu');
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daniele@169
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135 ylabel('SNR (dB)');
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danieleb@156
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136
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daniele@169
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137 figure
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daniele@169
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138 %subplot(3,1,2)
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daniele@169
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139 hold on, grid on
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daniele@169
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140 title('DCT Initialisation')
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daniele@169
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141 plot([1 1],[0 25],'k-');
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daniele@169
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142 plot(mu(13),sigNoiseRatio(13),'ks');
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daniele@169
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143 plot(mu(24),sigNoiseRatio(24),'kd');
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daniele@169
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144 plot(mu(14:23),sigNoiseRatio(14:23),'k*-');
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daniele@169
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145 plot([minMu minMu],[0 25],'k--')
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daniele@169
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146 set(gca,'YLim',[0 25],'XLim',[0 1.4]);
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daniele@169
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147 legend({'\mu_{max}','K-SVD','Grassmannian','INK-SVD','\mu_{min}'});
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daniele@169
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148 xlabel('\mu');
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daniele@169
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149 ylabel('SNR (dB)');
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daniele@169
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150
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daniele@169
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151 figure
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daniele@169
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152 %subplot(3,1,3)
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daniele@169
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153 hold on, grid on
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daniele@169
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154 title('Gabor Initialisation')
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daniele@169
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155 plot([1 1],[0 25],'k-');
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daniele@169
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156 plot(mu(25),sigNoiseRatio(25),'ks');
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daniele@169
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157 plot(mu(36),sigNoiseRatio(36),'kd');
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daniele@169
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158 plot(mu(26:35),sigNoiseRatio(26:35),'k*-');
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daniele@169
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159 plot([minMu minMu],[0 25],'k--')
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daniele@169
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160 set(gca,'YLim',[0 25],'XLim',[0 1.4]);
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daniele@169
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161 legend({'\mu_{max}','K-SVD','Grassmannian','INK-SVD','\mu_{min}'});
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daniele@169
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162 xlabel('\mu');
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daniele@169
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163 ylabel('SNR (dB)');
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daniele@169
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164
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daniele@169
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165 % minMu = sqrt((dictSize-blockSize)/(blockSize*(dictSize-1)));
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daniele@169
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166 % maxSNR = max(sigNoiseRatio);
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daniele@169
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167 %
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daniele@169
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168 % figure, subplot(2,2,1)
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daniele@169
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169 % snrMat = buffer(sigNoiseRatio(1:9),3);
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daniele@169
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170 % bar(snrMat');
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daniele@169
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171 % title('Signal to noise ratio')
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daniele@169
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172 % xlabel('Initial dictionary')
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daniele@169
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173 % ylabel('SNR (dB)')
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daniele@169
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174 % set(gca,'XTickLabel',{'data','dct','gabor'});
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daniele@169
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175 % legend('none','Mailhe','Tropp')
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daniele@169
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176 % grid on
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daniele@169
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177 %
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daniele@167
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178 % subplot(2,2,2), grid on
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daniele@167
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179 % snrMat = buffer(sigNoiseRatio(10:18),3);
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daniele@167
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180 % bar(snrMat');
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daniele@167
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181 % title('SNR - Mailhe Update')
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daniele@167
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182 % xlabel('Initial dictionary')
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daniele@167
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183 % ylabel('SNR (dB)')
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daniele@167
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184 % set(gca,'XTickLabel',{'data','dct','gabor'},'YLim',[0 maxSNR+1]);
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daniele@167
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185 % legend('none','Mailhe','Tropp')
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daniele@167
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186 % grid on
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daniele@169
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187 %
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daniele@169
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188 % subplot(2,2,3), hold on, grid on
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daniele@169
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189 % title('Coherence')
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daniele@169
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190 % muMat = buffer(mu(1:9),3);
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daniele@169
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191 % line([0.5 3.5],[1 1],'Color','r');
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daniele@169
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192 % bar(muMat');
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daniele@169
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193 % line([0.5 3.5],[minMu minMu],'Color','k');
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daniele@169
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194 % set(gca,'XTick',1:3,'XTickLabel',{'data','dct','gabor'},'YLim',[0 1.05])
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daniele@169
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195 % legend('\mu_{max}','none','Mailhe','Tropp','\mu_{min}')
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daniele@169
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196 % ylabel('\mu')
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daniele@169
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197 % xlabel('Initial dictionary')
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daniele@169
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198 %
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daniele@167
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199 % subplot(2,2,4), hold on, grid on
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daniele@167
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200 % title('Coherence - Mailhe Update')
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daniele@167
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201 % muMat = buffer(mu(10:18),3);
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daniele@167
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202 % line([0.5 3.5],[1 1],'Color','r');
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daniele@167
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203 % bar(muMat');
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daniele@167
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204 % line([0.5 3.5],[minMu minMu],'Color','k');
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daniele@167
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205 % set(gca,'XTick',1:3,'XTickLabel',{'data','dct','gabor'},'YLim',[0 1.05])
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daniele@167
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206 % legend('\mu_{max}','none','Mailhe','Tropp','\mu_{min}')
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daniele@167
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207 % ylabel('\mu')
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daniele@167
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208 % xlabel('Initial dictionary')
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